SU905803A1 - Continuous key-switch current stabilizer - Google Patents

Description

(54) CONTINUOUS-KEY CURRENT STABILIZER

one

The invention relates to electrical engineering and can be used in power supply devices for electronic equipment and, above all, for powering devices on avalanche-transit diodes (LPD).

A current stabilizer for supplying an LPD is known, which contains an adjustable, 11D1Y element, a current sensor and a HP feedback unit.

A disadvantage of this device is poor efficiency with a wide variation in the supply voltage.

Closest to the present invention is a stabilizer containing an adjustable DC voltage converter, an input connected to the input terminals, and an output bridged: a capacitor, to the input of the DC regulator, an output connected to the output-1I terminals and including an adjustable voltage regulator th transistor, first

a zener diode, three resistors and an optocoupler, the output of which is connected to the control input of an adjustable DC voltage converter 23.

The disadvantages of this device are low dynamic resistance and lack of reliability in idle and sudden short circuit conditions.

The aim of the invention is to increase the dynamic resistance and increase the reliability of a non-keyed current stabilizer.

The goal is achieved by introducing a control transistor, a choke, and a second zener diode into a continuously-key current amplifier, with a collector-emitter luminous transition regulating transistor, clamped by a circuit from

20 series-connected input pins of the optocoupler and the first resistor, in series with the other, a second resistor is connected between the AND terminal of the DC regulator, the base of the regulating transistor is connected to the output through the first Zener diode, and through the serially connected collector-emit transition of the control transistor and the third resistor to the controller of the direct current torus, the base of the control transistor is connected to the connection point of the first resistor and the optocoupler input, and between the regulator input is constant A second Zener diode is connected to the output of the controlled input voltage converter and a second Zener diode. The second output terminal of the controlled input voltage converter is connected to the common DC bus regulator. The drawing shows the principal on the scheme of the continuous-klichevoy current stabilizer; The device contains an adjustable DC voltage converter, an input connected to the input terminals, and an output, bypass capacitor 2, to the input of the DC regulator, the output connected to the output terminals and including an adjusting transistor 3, whose collector-emitter junction in series with the resistor 4 and the choke 5 is connected between the input and output of the DC regulator, a series-connected resistor 6 and the input terminals of the optocoupler 7 connected in parallel to the collector-emitte The first control transistor 3, the zener diode 8, connected between the base of the regulating transistor 3 and the output terminal, the resistor 9 and the control transistor 10, the collector-emitter junction of which is consistent with the resistor 9 is connected between the base of the regulating transistor 3 and the input of the DC regulator and zener diode I1 connected between the input of the regulator of direct current and one control terminal of the adjustable constant-voltage converter 1. The controllers of the continuously-adjustable constant-frequency converter The aprons are connected to the OUTPUT.1M of the optocoupler 7, one of the terminals of which is connected to the common DC regulator. The base of the upper transistor 10 is connected to the connection point of the resistor 6 with the input terminal of the optocoupler 7. The device operates as follows. When the input voltage changes, the adjustable DC voltage converter maintains the same voltage across the control transistor 3. The increase in the dynamic resistance of the stabilizer is achieved by the current of the LED of the optocoupler 7 flowing through the resistor 4, as a result of which the sum of the currents of the optocoupler 7 and transistor 3 remains constant, since all changes in the current of the optocoupler are compensated by the corresponding changes in the current of transistor 3. At the same time, in the proposed scheme, transistor 10 with resistor 9 and LED the optocoupler 7 forms an auxiliary current stabilizer with an output resistance of ten to hundreds of kilowatts, through which the Zener diode 8 is powered. Improving the reliability of the continuous-key current regulator in idle mode is achieved by connecting the Zener I between the control circuit of the adjustable I converter and its output with a breakdown voltage greater than the maximum operating voltage at the input of a continuous current regulator, but less than the maximum output voltage uliruemogo converter. In the stabilizer operating mode, the zener diode 11 is closed and does not affect the operation of the circuit. When the load circuit is over, the maximum voltage at the output of the adjustable converter is limited at the level of the voltage of the zener diode 1 1. I Improving the reliability of the current stabilizer in a sudden short circuit mode is achieved by the fact that a choke 5 is connected in series with the resistor and in the emitter circuit of the regulating transistor, which takes a sharp voltage drop across the load and prevents the occurrence of a dangerous optocoupler and the entire current regulator continuous current surge across the circuit LED optocoupler 7 resistor 6 - resistor 4. In the working

Claims (1)

Claim A continuous-key current stabilizer, containing an adjustable DC-DC converter, connected to the input terminals by an input, and a condensed bypass output connected to the DC regulator input, an output connected to it, a control transistor, a choke and a second zener diode, and the collector-emitter junction transistor, shunted by a circuit from the series-connected input terminals of the optocoupler and the first resistor, in series with the inductor and the second resistor at the input and output 10 of the DC regulator, the base of the control transistor is connected to the output through the first zener diode, and through the collector-emitter junction of the control transistor and the third resistor with the input of the DC regulator in series, the base of the control transistor is connected to the connection point of the first resistor and input optocoupler 20 and between the input of the DC regulator and the first output of the control input of the adjustable DC-DC converter, a second Zener diode is connected, the second 25 output of the control input of the DC voltage regulator is connected to the common bus of the DC regulator.